LIQUEFACTION HAZARD ASSESSMENT: LESSONS OLD AND … · ©travelieu.com Backdrop Liquefaction Models...
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LIQUEFACTION HAZARD
ASSESSMENT: LESSONS OLD AND
NEW FROM THE CANTERBURY
EARTHQUAKE SEQUENCE
Brett Maurer
Annual Meeting
UCLA | January 17-18, 2019
Mertcan Geyin
Alex Baird
University of Washington
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Backdrop
Liquefaction
Models
Model
Performance
Triggering
Further
Inquiry
Conclusions
OUTLINE
Triggering +
Manifestation
Sequence
Products
Ground
Failure/Ejecta
Settlement
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Backdrop
1
10
100
1000
10000
100000
1960 1970 1980 1990 2000 2010 2020
# L
iqu
efa
ctio
n C
ase
-His
tori
es
Year of Earthquake
Niigata
Japan
Loma Prieta
USATangshan
China
Kocaeli, TUR
Chi-Chi, TWN
Canterbury
Sequence NZ
Cumulative compilation of CPT-based liquefaction case-histories
0
2000
4000
6000
8000
10000
12000
14000
16000
1960 1970 1980 1990 2000 2010 2020
# L
iqu
efa
ctio
n C
ase
-His
tori
es
Year of Earthquake
Canterbury
Sequence NZ
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Before Canterbury Earthquake Sequence (2010)
Christchurch, New Zealand
Backdrop
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After Canterbury Earthquake Sequence (2017)
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Christchurch, New Zealand
Backdrop
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Ground water
measurements from
1,000+ piezometers
Airborne LIDAR and high
resolution imagery
following multiple
earthquakes
Recordings from 20
strong motion stations
across Christchurch in
multiple earthquakes
25,000+ cone
penetration tests (CPTs)
to characterize
subsurface
A beneficial outcome…
Backdrop
High-quality bulk ingredients for liquefaction case-histories
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Backdrop
…unprecedented data to test/improve liquefaction analytics
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Backdrop
Liquefaction
Models
Model
Performance
Triggering
Further
Inquiry
Conclusions
OUTLINE
Triggering +
Manifestation
Sequence
Products
Ground
Failure/Ejecta
Settlement
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Tier 3 Tier 2 Tier 1
Models for Predicting Liquefaction Occurrence/Consequence
Geologic/Geospatial
Models
“Simplified Stress-Based”
Models
Zhu et al. 2015
Numerical/Constitutive
Models
Excess Pore Pressure Ratio, ru
1
0
(T1) Wholly-empirical models requiring only free geologic or geospatial data
(T2) Semi-mechanistic “simplified” models requiring in-situ test measurements
(T3) Wholly-mechanistic constitutive models requiring many parameters
Increasing Cost/Complexity
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Backdrop
Liquefaction
Models
Model
Performance
Triggering
Further
Inquiry
Conclusions
OUTLINE
Triggering +
Manifestation
Sequence
Products
Ground
Failure/Ejecta
Settlement
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➢ Let’s evaluate six triggering models:
1) Robertson & Wride (1998): RW98
2) Architectural Inst. Japan (2001): AIJ01
3) Moss et al. (2006): Mea06
4) Idriss & Boulanger (2008): IB08
5) Boulanger and Idriss (2014): BI14
6) Green et al. (2018): Gea18
“Tier 2” Geotechnical Triggering Models
0
0.1
0.2
0.3
0.4
0.5
0.6
0 50 100 150 200 250
CS
RM
=7.5
,σ'=
1 a
tm
qc1N,cs
No Liquefaction
Liquefaction
➢ Is there an objective and practical way to evaluate performance?
➢ No
➢ How to compare predictions w/ observations in numerous strata?
➢ Inferences via “critical layer” (too subjective)
➢ Down-hole PPT arrays (too few)
➢ Geoslices (too expensive)
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Geoslice
Takada and Atwater (2004)
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Takada and Atwater (2004)
Geoslice
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➢ Let’s evaluate six triggering models:
1) Robertson & Wride (1998): RW98
2) Architectural Inst. Japan (2001): AIJ01
3) Moss et al. (2006): Mea06
4) Idriss & Boulanger (2008): IB08
5) Boulanger and Idriss (2014): BI14
6) Green et al. (2018): Gea18
“Tier 2” Geotechnical Triggering Models
0
0.1
0.2
0.3
0.4
0.5
0.6
0 50 100 150 200 250
CS
RM
=7.5
,σ'=
1 a
tm
qc1N,cs
No Liquefaction
Liquefaction
➢ Is there an objective and practical way to evaluate performance?
➢ No
➢ How to compare predictions w/ observations in numerous strata?
➢ Inferences via “critical layer” (too subjective)
➢ Down-hole PPT arrays (too few)
➢ Geoslices (too expensive)
➢ For 99% of cases, we only have ground-surface observations
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Backdrop
Liquefaction
Models
Model
Performance
Triggering
Further
Inquiry
Conclusions
OUTLINE
Triggering +
Manifestation
Sequence
Products
Ground
Failure/Ejecta
Settlement
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➢ Use of triggering model and manifestation model in sequence
“Tier 2” Geotechnical Triggering + Manifestation Models
LPI
LPIISH
LSN
Compare to
Observations
+
FSliq
Liquefaction
Triggering
Model
Liquefaction
Manifestation
Model
Robertson & Wride (1998)
Arch. Inst. Japan (2001)
Moss et al. (2006)
Boulanger & Idriss (2014)
Green et al. (2018)
Idriss & Boulanger (2008)
Maurer et al.
(2015)
Iwasaki et al.
(1978)
van Ballegooy
et al. (2014)
Zhang et al.
(2002)∆H
+
Settlement
Ejecta
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➢ Use readily-available free geospatial data (no in-situ testing)
➢ Subsurface properties relevant to liquefaction (e.g. soil density,
saturation) are inferred from satellite remote sensing.
Figures from Zhu et al. (2015)
“Tier 1” Geospatial Triggering + Manifestation Models
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➢ We’ll use two geospatial models trained on surface manifestation:
➢ Zhu et al. (2015) Regional Model (specific to Christchurch, NZ):
➢ Zhu et al. (2017) Global Model (for all other locations):
f (Distance to Rivers, Vs30, magnitude-scaled PGA)
f (Distance to Rivers, Distance to Coast, precipitation, Vs30, PGV)
Or
f (Distance to Water, Water Table Depth, precipitation, Vs30, PGV)
“Tier 1” Geospatial Triggering + Manifestation Models
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Backdrop
Liquefaction
Models
Model
Performance
Triggering
Further
Inquiry
Conclusions
OUTLINE
Triggering +
Manifestation
Sequence
Products
Ground
Failure/Ejecta
Settlement
![Page 20: LIQUEFACTION HAZARD ASSESSMENT: LESSONS OLD AND … · ©travelieu.com Backdrop Liquefaction Models Model Performance Triggering Further Inquiry Conclusions OUTLINE Triggering + Manifestation](https://reader031.fdocuments.in/reader031/viewer/2022021723/5ccd7c4088c99335448df500/html5/thumbnails/20.jpg)
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Data & Methodology15,222
Liquefaction
Case Histories
Geotechnical
Models
ROC Analyses
6 Triggering Models
3 Manifestation (Ejecta) Models
Compiled from 24
earthquakes in 9 countries
Prediction efficiency
(Area Under ROC Curve, AUC)
Geospatial
Models
Zhu et al. (2015) Regional: Zue15
Zhu et al. (2017) Global: Zue17
Predicting Ejecta / General Ground Failure
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No
Manifestation
Minor
Moderate
Severe
Prediction efficiency
(Area Under ROC Curve, AUC)
Predicting Ejecta / General Ground Failure
15,222
Liquefaction
Case Histories
Geotechnical
Models
ROC Analyses
Geospatial
Models
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Predicting Ejecta / General Ground Failure
Canterbury Earthquake Sequence
~15000 Case Histories
0.50
0.60
0.70
0.80
0.90
1.00
1995 2000 2005 2010 2015 2020
Pre
dic
tio
n E
ffic
ien
cy (
AU
C)
Year Model Published
LPI
Random Guess
RW98IB08 BI14
Mea06
Perfect Model
AIJ01
Gea18
➢ Finite-sample uncertainty shown via bootstrap simulations
➢ Given large data, small differences tend to be statistically significant
2.5th and 97.5th
Percentiles
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Canterbury Earthquake Sequence
~15000 Case Histories
0.50
0.60
0.70
0.80
0.90
1.00
1995 2000 2005 2010 2015 2020
Pre
dic
tio
n E
ffic
ien
cy (
AU
C)
Year Model Published
LPI LPI-ISH LSN
Random Guess
RW98IB08 BI14
Mea06
Perfect Model
AIJ01
Gea18
➢ Best models in Canterbury: BI14/LPIish and Gea18/LPIish
Predicting Ejecta / General Ground Failure
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0.50
0.60
0.70
0.80
0.90
1.00
1995 2000 2005 2010 2015 2020
Pre
dic
tio
n E
ffic
ien
cy (
AU
C)
Year Model Published
LPI LPI-ISH LSN
Random Guess
RW98IB08 BI14
Mea06
Perfect Model
AIJ01
Gea18
Canterbury Earthquake Sequence
~15000 Case Histories
Predicting Ejecta / General Ground Failure
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Canterbury Earthquake Sequence
~15000 Case Histories
0.50
0.60
0.70
0.80
0.90
1.00
1995 2000 2005 2010 2015 2020
Pre
dic
tio
n E
ffic
ien
cy (
AU
C)
Year Model Published
LPI LPI-ISH LSN
Random Guess
RW98IB08 BI14
Mea06AIJ01
Gea18
What is the Expectation?
➢ Most models closer to perfection than to random guessing
Predicting Ejecta / General Ground Failure
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Canterbury Earthquake Sequence
~15000 Case Histories
0.50
0.60
0.70
0.80
0.90
1.00
1995 2000 2005 2010 2015 2020
Pre
dic
tio
n E
ffic
ien
cy (
AU
C)
Year Model Published
LPI LPI-ISH LSN Geospatial
Random Guess
RW98IB08 BI14
Mea06
Perfect Model
AIJ01
Gea18
Zhu15 Regional
Geospatial Model
➢ Predictions from outerspace better than in-situ tests?!
Predicting Ejecta / General Ground Failure
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Global Earthquakes
280 Case Histories
0.50
0.60
0.70
0.80
0.90
1.00
1995 2000 2005 2010 2015 2020
Pre
dic
tio
n E
ffic
ien
cy (
AU
C)
Year Model Published
LPI LPI-ISH LSN
Random Guess
RW98 IB08 BI14Mea06
Perfect Model
AIJ01 Gea18
➢ Performance lower, more similar across models
➢ Best models globally: Mea06/LPI and AIJ01/LPI
➢ But, model differences are generally not statistically significant
Predicting Ejecta / General Ground Failure
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Global Earthquakes
280 Case Histories
0.50
0.60
0.70
0.80
0.90
1.00
1995 2000 2005 2010 2015 2020
Pre
dic
tio
n E
ffic
ien
cy (
AU
C)
Year Model Published
LPI LPI-ISH LSN
Random Guess
RW98 IB08 BI14Mea06
Perfect Model
AIJ01 Gea18
+ 0.0%
/ YR
Predicting Ejecta / General Ground Failure
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Global Earthquakes
280 Case Histories
0.50
0.60
0.70
0.80
0.90
1.00
1995 2000 2005 2010 2015 2020
Pre
dic
tio
n E
ffic
ien
cy (
AU
C)
Year Model Published
LPI LPI-ISH LSN Geospatial
Random Guess
RW98 IB08 BI14Mea06
Perfect Model
AIJ01 Gea18
Zea17 Global
Geospatial
Model
➢ Globally, geotechnical models much better than geospatial models
➢ Geospatial models marginally better than random guessing
Predicting Ejecta / General Ground Failure
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Backdrop
Liquefaction
Models
Model
Performance
Triggering
Further
Inquiry
Conclusions
OUTLINE
Triggering +
Manifestation
Sequence
Products
Ground
Failure/Ejecta
Settlement
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Prediction of Liquefaction-Induced Settlement
Components of Free-Field Settlement
1) Ejecta
2) Seismic Compression
3) Post-Liq volumetric strain, εv
➢ Most predictions of settlement in practice:
1) Ignore seismic compression (Unconservative)
2) Ignore ejecta (Unconservative)
3) Do not apply depth-weighting to εv (Conservative)
➢ εv often used as “catch-all” predictor of ground settlement
➢ If prediction is accurate, it is by accident
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Prediction of Liquefaction-Induced Settlement
Feb 2011 Christchurch Earthquake (highest quality LIDAR measurement of settlements)
➢ Predictions exhibit strong bias
➢ Underpredict small settlement; overpredict large settlement
➢ True regardless of triggering model and Dr – qc1ncs correlation
eg, Zhang et al. (2002) with Boulanger
& Idriss (2014) triggering model
underpredict
overpredict
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Prediction of Liquefaction-Induced Settlement
Feb 2011 Christchurch Earthquake (highest quality LIDAR measurement of settlements)
➢ Depth-weighting diminishes prediction bias
➢ Ejecta clearly needs to be accounted for when predicting settlement
➢ Overpredicted at sites w/o ejecta; underpredicted at sites w/ ejecta
underpredict
overpredict
With Depth-Weighting Function:
Predicted Settlement (m)
0.00 0.05 0.10 0.15 0.20 0.25R
esi
du
al
(m)
-0.25
-0.20
-0.15
-0.10
-0.05
0.00
0.05
0.10
0.15
0.20
0.25
ID: 0
ID: 1&2
ID: 3
Yoshimine et al. (2006), Depth Weighted
Considering Severity of Ejecta:
Increasing Liquefaction Ejecta
Predicted Settlement (m)
0.00 0.05 0.10 0.15 0.20 0.25
Resi
du
al
(m)
-0.25
-0.20
-0.15
-0.10
-0.05
0.00
0.05
0.10
0.15
0.20
0.25
ID: 0
ID: 1&2
ID: 3
Yoshimine et al. (2006), Depth Weighted
No Ejecta
Minor-to-Mod Ejecta
Severe Ejecta
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Backdrop
Liquefaction
Models
Model
Performance
Triggering
Further
Inquiry
Conclusions
OUTLINE
Triggering +
Manifestation
Sequence
Products
Ground
Failure/Ejecta
Settlement
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A Few Products of the Canterbury Sequence
➢ Fragility Functions for Severity of Free-Field Manifestation (Ejecta)
➢ Fragility Functions for Severity of Foundation Damage
➢ Function coefficients for 18 geotechnical models and 2 geospatial models
allow user to select analytics of choice (or blend predictions).
➢ Other new models for predicting foundation settlement and tilt (Bray and
Macedo, 2018; Bullock et al., 2019).
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Backdrop
Liquefaction
Models
Model
Performance
Triggering
Further
Inquiry
Conclusions
OUTLINE
Triggering +
Manifestation
Sequence
Products
Ground
Failure/Ejecta
Settlement
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Further Inquiry – Geotechnical Models
➢ Model performance was particularly poor in Canterbury at sites with
interbedded high-Ic soils, where manifestations were overpredicted.
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clean-to-silty sand clean-to-silty sand
Capping or
Interbedded
Silt-to-Clay
Soils
Prediction Efficiency: 80-90% 60-70%
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Further Inquiry – Geotechnical Models
➢ Model performance was particularly poor in Canterbury at sites with
interbedded high-Ic soils, where manifestations were overpredicted.
➢ Problem has something to do with silty soils; what has been investigated?
1. Region specific Ic-susceptibility correlations (no improvement)
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Further Inquiry – Geotechnical Models
➢ Model performance was particularly poor in Canterbury at sites with
interbedded high-Ic soils, where manifestations were overpredicted.
➢ Problem has something to do with silty soils; what has been investigated?
1. Region specific Ic-susceptibility correlations (no improvement)
2. Region specific Ic-FC correlation (slightly worse performance)
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Further Inquiry – Geotechnical Models
➢ Model performance was particularly poor in Canterbury at sites with
interbedded high-Ic soils, where manifestations were overpredicted.
➢ Problem has something to do with silty soils; what has been investigated?
1. Region specific Ic-susceptibility correlations (no improvement)
2. Region specific Ic-FC correlation (slightly worse performance)
3. CPT Inversion filter of Boulanger & DeJong, 2018 (worse performance)
0
1
2
3
4
5
6
7
8
9
10
0 100 200 300
Dep
th (
m)
Normalized q
Input qm
After Inversion
0
1
2
3
4
5
6
7
8
9
10
0 1 2
Dep
th (
m)
Normalized fs
Input fs
After Inversion
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Further Inquiry – Geotechnical Models
➢ Model performance was particularly poor in Canterbury at sites with
interbedded high-Ic soils, where manifestations were overpredicted.
➢ Problem has something to do with silty soils; what has been investigated?
1. Region specific Ic-susceptibility correlations (no improvement)
2. Region specific Ic-FC correlation (slightly worse performance)
3. CPT Inversion filter of Boulanger & DeJong, 2018 (worse performance)
4. Cyclic lab testing (Beyzaei et al., 2018); confirms CPT predictions
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Further Inquiry – Geotechnical Models
➢ Model performance was particularly poor in Canterbury at sites with
interbedded high-Ic soils, where manifestations were overpredicted.
➢ Problem has something to do with silty soils; what has been investigated?
1. Region specific Ic-susceptibility correlations (no improvement)
2. Region specific Ic-FC correlation (slightly worse performance)
3. CPT Inversion filter of Boulanger & DeJong, 2018 (worse performance)
4. Cyclic lab testing (Beyzaei et al., 2019); confirms CPT predictions
5. Site Characterization Problems
• Partial Saturation
• CPT cannot detect very thin
layering (Beyzaei et al. 2018).
(may help explain poor
performance)
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Further Inquiry – Geotechnical Models
➢ A final thought on the “simplified” procedure: It could be more rational
➢ Triggering and manifestation models must be developed harmoniously within a
consistent framework; current approach (in use for 50 years) fails to do so.
• Triggering models: tie
surface manifestation to
critical layer.
• Need manifestation
mechanics to do so.
• Analyst selects critical
layer such that thickness,
density, strain-potential,
and depth, considering
also all properties of all
overlying soils, is consistent
with surface observation.
• Citation of manifestation
model: (judgement, year)
• Manifestation models:
tie triggering to surface
manifestation.
• Need manifestation
mechanics to do so.
• Names of manifestation
models: LPI, LSN, etc.
• Developed separate from
triggering models by
different researchers,
assuming triggering
curves are “pure,” or
devoid of factors relating
to manifestation.
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Backdrop
Liquefaction
Models
Model
Performance
Triggering
Further
Inquiry
Conclusions
OUTLINE
Triggering +
Manifestation
Sequence
Products
Ground
Failure/Ejecta
Settlement
![Page 45: LIQUEFACTION HAZARD ASSESSMENT: LESSONS OLD AND … · ©travelieu.com Backdrop Liquefaction Models Model Performance Triggering Further Inquiry Conclusions OUTLINE Triggering + Manifestation](https://reader031.fdocuments.in/reader031/viewer/2022021723/5ccd7c4088c99335448df500/html5/thumbnails/45.jpg)
Conclusions
➢ Geospatial models outperform geotechnical models for large subsets
• Global portability is problematic, but potential is provocative
➢ Geotechnical triggering/settlement models performed poorly in
general (if we expect them to be accurate?)
➢ Geotechnical triggering/ejecta models performed relatively poorly
in profiles interbedded with high Ic soils
➢ No improvement with region-specific susceptibility correlation
➢ No improvement with region-specific Ic-FC correlation
➢ No improvement with CPT inversion filters (thin layer correction)
➢ Impetus for inquiry into site characterization, system response…
➢ May highlight very fundamental problem with “simplified” models
(obscuration of triggering and manifestation mechanics)
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Some Relevant Literature
➢ Maurer, B.W., Green, R.A., van Ballegooy, S., and Wotherspoon, L. (2019). “Development of region-specific soil behavior type index correlations for evaluating liquefaction hazard in Christchurch, New Zealand.” Soil Dynamics and Earthquake Engineering 117: 96-105.
➢ Maurer, B.W., Bradley, B.A., and van Ballegooy, S. (2018). “Liquefaction hazard assessment: satellites vs. in-situ tests.” Geotechnical Earthquake Engineering and Soil Dynamics V: Liquefaction Triggering, Consequences, and Mitigation (S.J. Brandenberg and M.T. Manzari, eds.), Geotechnical Special Publication 290: 348-356.
➢ Baird, A., Geyin, M., and Maurer, B.W. (2018). “On the relationship between geospatial liquefaction-model performance and quality of geospatial data: a case study of the 2010-2016 Canterbury earthquakes.” New Zealand Centre for Earthquake Resilience (QuakeCoRE) Annual Meeting, Sept 4-6; Taupo, New Zealand.
➢ Upadhyaya, S., Maurer, B.W., Green, R.A., and Rodriguez-Marek, A. (2018). “Effect of non-liquefiable high fines-content, high plasticity soils on liquefaction potential index (LPI) performance.” Geotechnical Earthquake Engineering and Soil Dynamics V: Liquefaction Triggering, Consequences, and Mitigation (S.J. Brandenberg and M.T. Manzari, eds.), Geotechnical Special Publication 290: 191-198. American Society of Civil Engineers.
➢ Maurer, B.W., Green, R.A., Cubrinovski, M., and Bradley, B. (2015). “Assessment of CPT-based methods for liquefaction evaluation in a liquefaction potential index framework.” Géotechnique 65(5): 328-336.
➢ Maurer, B.W., Green, R.A., Cubrinovski, M., and Bradley, B. A. (2015). “Fines-content effects on liquefaction hazard evaluation for infrastructure during the 2010-2011 Canterbury, New Zealand earthquake sequence.” Soil Dynamics and Earthquake Engineering 76: 58-68.
➢ Maurer, B.W., Green, R.A., Cubrinovski, M., and Bradley, B.A. (2014). “Evaluation of the liquefaction potential index for assessing liquefaction hazard in Christchurch, New Zealand.” Journal of Geotechnical and Geoenvironmental Engineering 140(7), 04014032, American Society of Civil Engineers.